Ultrasound signal compression

1. In an ultrasound imaging system including an array of N ultrasound transducer elements that outputs N analog ultrasound signals during a sampling window, a method comprising: digitally sampling the N analog ultrasound signals in parallel using N analog to digital converters (ADCs) to produce N sequences of signal samples during the sampling window, each ADC sampling a corresponding analog ultrasound signal output by a corresponding transducer element to form a corresponding sequence of signal samples, each signal sample represented by a number of bits per sample; multiplexing the N sequences of signal samples to M channels of multiplexed signal samples where M is less than N by mapping the bits of the N signal samples for each sample period to M subsets of bits, where each subset of bits is provided to a corresponding on of the M channels; and transferring the M channels of multiplexed signal samples over M data ports across a data transfer interface to a signal processor.

2. The method of claim 1 , further comprising: receiving the M channels of multiplexed signal samples at the signal processor; and demultiplexing the M channels of multiplexed signal samples to form N reproduced sequences of signal samples by demapping the M subsets of bits to reproduce the N signal samples for each sample period, wherein the N reproduced sequences of signal sample are processed by the signal processor.

3. For use in an ultrasound imaging system including an array of N ultrasound transducer elements that outputs N analog ultrasound signals during a sampling window, an apparatus comprising: an integrated circuit device having N analog inputs for receiving the N analog ultrasound signals and n data ports at a digital interface, the integrated circuit device comprising: N analog to digital converters (ADCs) coupled to digitally sample the N analog ultrasound signals received at the analog inputs to produce N sequences of signal samples during the sampling window, each ADC sampling a corresponding analog ultrasound signal to form a corresponding sequence of signal samples, each signal sample represented by a number of bits per sample; and a multiplexer having N inputs coupled to receive the N sequences of signal samples and producing M channels of multiplexed signal samples, where M is less than N, the multiplexer mapping the bits of the N signal samples for each sample period to M subsets of bits, wherein each subset of bits is provided to a corresponding one of the M channels for transfer over M of the N data ports at the digital interface to the signal processor.

4. The apparatus of claim 3 , further comprising: a demultiplexer coupled to receive the M channels of multiplexed signal samples from the digital interface, wherein the demultiplexer demaps the M subsets of bits to reproduce the N signal samples for each sample period and provides N reproduced sequences of signal samples to the signal processor.